Synthesis, Structure and Physical Properties of a Two-Dimensional Organic Metal, Di[bis(ethylenedithiolo)tetrathiofulvalene] triiodide, (BEDT-TTF)+2I3

Abstract
Electrical oxidation of bis(ethylenedithiolo)tetrathiofulvalene (BEDT-TTF) 1 in a nitrogen saturated tetrahydrofurane solution containing (n-C4H10)4N+I3 as electrolyte results in the deposition of crystal plates of (BEDT-TTF)+ 2I3 (C10H8S8)2I3. These two dimensional crystals are triclinic, space group P1, a = 9.211(2), b=10.850(4), c = 17.488(5) Å, α=96.95(2), β = 97.97(2), γ = 90.75(2)°, V = 1717 Å3, Mr = 1150.01, Z=2, Dx =2.22 g cm−3. Rw = 0.037 for 2462 observed reflections. Sheets of alternating cations and anions occur in the compound. The most prominent intermolecular S-S contacts (∼3.5Å) are found between the stacks of BEDT-TTF. The stacking of the molecules and the interstack contacts give the compound a two-dimensional character which influences the physical properties. The room temperature conductivities in the ab plane range typically between 60 and 250 (ω cm)−1. The conductivity anisotropy in this plane is small with a ratio of σab⩽ 2, while in the direction perpendicular to the ab-plane at least a 1000 times smaller value is found. The temperature dependent conductivity and thermopower measurements show that in the temperature range between 135 and 300 K the crystals behave like a two dimensional metal, while below 135 K a metal-insolator transition occurs. The thermopower values indicate that the high temperature conductivity is dominated by holes. An estimate of the Fermi energy εf gives a value of εf ≈0.3 eV.